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Climatic Change and Groundwater: India\u2019s Opportunities for Mitigation and Adaptation

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  • Shah, Tushaar

Abstract

For millennia, India has been using surface storages and gravity flow to irrigate its crops. During the last 40 years, however, India has witnessed a decline in gravity flow irrigation and the rise of a booming \u201cwater-scavenging\u201d irrigation economy through millions of small, private tube wells. For India, groundwater has become at once critical and threatened. Climatic change will act as a force-multiplier; it will enhance the criticality of groundwater for drought-proofing agriculture and simultaneously multiply the threat to the resource. Groundwater pumping with electricity and diesel also accounts for an estimated 16-25 million tonnes of carbon emission, 4-6% of the country\u2019s total emission. From the point of view of climatic change, India\u2019s groundwater hot spots are western and Peninsular India. These are critical for mitigation of, and adaptation to, climatic change. To achieve both, India needs to make a transition from surface storages to \u201cmanaged aquifer storage\u201d as the comerstone of its water strategy with proactive demand and supply-side management components. In doing this, India needs to learn intelligently from the experience of countries like Australia and the USA that have long experience in managed aquifer recharge.

Suggested Citation

  • Shah, Tushaar, 2009. "Climatic Change and Groundwater: India\u2019s Opportunities for Mitigation and Adaptation," Conference Papers h042693, International Water Management Institute.
    • Handle: RePEc:iwt:conppr:h042693
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    1. Shah, Tushaar & Scott, C. & Kishore, A. & Sharma, A., 2003. "Energy-irrigation nexus in South Asia: Improving groundwater conservation and power sector viability," IWMI Research Reports H033885, International Water Management Institute.
    2. Shah, Tushaar & Scott, Christopher A. & Kishore, Avinash & Sharma, Abhishek, 2004. "Energy-irrigation nexus in South Asia: Improving groundwater conservation and power sector viability," IWMI Research Reports 44557, International Water Management Institute.
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    Cited by:

    1. Sunil S. Amrith, 2018. "Risk and the South Asian monsoon," Climatic Change, Springer, vol. 151(1), pages 17-28, November.
    2. Kirstin I. Conti & Joyeeta Gupta, 2016. "Global governance principles for the sustainable development of groundwater resources," International Environmental Agreements: Politics, Law and Economics, Springer, vol. 16(6), pages 849-871, December.
    3. Karimi, Poolad & Qureshi, Asad Sarwar & Bahramloo, Reza & Molden, David, 2012. "Reducing carbon emissions through improved irrigation and groundwater management: A case study from Iran," Agricultural Water Management, Elsevier, vol. 108(C), pages 52-60.
    4. McCornick, Peter & Smakhtin, Vladimir & Bharati, Luna & Johnston, Robyn & McCartney, Matthew & Sugden, Fraser & Clement, Floriane & McIntyre, Beverly, 2013. "Tackling change: future-proofing water, agriculture, and food security in an era of climate uncertainty," Book Chapters,, International Water Management Institute.
    5. G. T. Patle & D. K. Singh & A. Sarangi & Manoj Khanna, 2016. "Managing CO2 emission from groundwater pumping for irrigating major crops in trans indo-gangetic plains of India," Climatic Change, Springer, vol. 136(2), pages 265-279, May.
    6. Qiu, Guo Yu & Zhang, Xiaonan & Yu, Xiaohui & Zou, Zhendong, 2018. "The increasing effects in energy and GHG emission caused by groundwater level declines in North China’s main food production plain," Agricultural Water Management, Elsevier, vol. 203(C), pages 138-150.
    7. Zhang, Yongqiang & Ge, Maosheng & Zhang, Qianwen & Xue, Shaopeng & Wei, Fuqiang & Sun, Hao, 2023. "What did irrigation modernization in China bring to the evolution of water-energy-greenhouse gas emissions?," Agricultural Water Management, Elsevier, vol. 282(C).
    8. World Bank [WB], 2016. "High and Dry : Climate Change, Water, and the Economy," Working Papers id:10736, eSocialSciences.
    9. Karimov, Akmal Kh & Toshev, Rashid H. & Karshiev, Rustam & Karimov, Aziz A., 2021. "Water–energy nexus in Central Asia's lift irrigation schemes: Multi-level linkages," Renewable and Sustainable Energy Reviews, Elsevier, vol. 147(C).
    10. Wakeel, Muhammad & Chen, Bin & Hayat, Tasawar & Alsaedi, Ahmed & Ahmad, Bashir, 2016. "Energy consumption for water use cycles in different countries: A review," Applied Energy, Elsevier, vol. 178(C), pages 868-885.
    11. Pande, Saket & van den Boom, Bart & Savenije, Hubert H.G. & Gosain, Ashvani K., 2011. "Water valuation at basin scale with application to western India," Ecological Economics, Elsevier, vol. 70(12), pages 2416-2428.
    12. Kishore, Prabhat & Singh, Dharam R. & Srivastava, Shivendra & Kumar, Arun & Prakash, 2021. "Food-Groundwater-Energy nexus in Indian agriculture: Empirical evidence from Uttar Pradesh, India," 2021 ASAE 10th International Conference (Virtual), January 11-13, Beijing, China 329408, Asian Society of Agricultural Economists (ASAE).
    13. Prathapar, S. & Dhar, S. & Rao, G. Tamma & Maheshwari, B., 2015. "Performance and impacts of managed aquifer recharge interventions for agricultural water security: A framework for evaluation," Agricultural Water Management, Elsevier, vol. 159(C), pages 165-175.
    14. Kumar, Navneet & Tischbein, Bernhard & Beg, Mirza Kaleem & Bogardi, Janos J., 2018. "Spatio-temporal analysis of irrigation infrastructure development and long-term changes in irrigated areas in Upper Kharun catchment, Chhattisgarh, India," Agricultural Water Management, Elsevier, vol. 197(C), pages 158-169.
    15. repec:mth:jas888:v:6:y:2018:i:1:p:260-297 is not listed on IDEAS
    16. Audrey Richard-Ferroudji & Nicolas Faysse & Zhour Bouzidi & Menon Ragunath & Jean-Daniel Rinaudo, 2016. "Proposal COSUST Special Issue « Co-designing Research on Social Transformations to Sustainability » Title: The DIALAQ project on sustainable groundwater management: a transdisciplinary and transcultur," Post-Print hal-01378517, HAL.
    17. Varghese, Shalet Korattukudy & Veettil, Prakashan Chellattan & Speelman, Stijn & Buysse, Jeroen & Van Huylenbroeck, Guido, 2013. "Estimating the causal effect of water scarcity on the groundwater use efficiency of rice farming in South India," Ecological Economics, Elsevier, vol. 86(C), pages 55-64.
    18. Chaturvedi, Vaibhav & Koti, Poonam Nagar & Sugam, Rudresh & Neog, Kangkanika & Hejazi, Mohamad, 2020. "Cooperation or rivalry? Impact of alternative development pathways on India’s long-term electricity generation and associated water demands," Energy, Elsevier, vol. 192(C).
    19. Gathorne-Hardy, Alfred & Reddy, D. Narasimha & Venkatanarayana, M. & Harriss-White, Barbara, 2016. "System of Rice Intensification provides environmental and economic gains but at the expense of social sustainability — A multidisciplinary analysis in India," Agricultural Systems, Elsevier, vol. 143(C), pages 159-168.
    20. Joshi, Pramod K. & Aggarwal, P.K. & Tyagi, N.K. & Pandey, Divya, 2015. "Role of development policies in combating climate change issues in Indian Agriculture: A frist order assessment of irrigation and fertilizer policies," 2015 Conference, August 9-14, 2015, Milan, Italy 211817, International Association of Agricultural Economists.
    21. Srinivasan, Jeena T. & Nuthalapati, Chandra Sekhara Rao, 2019. "Groundwater Extraction, Agriculture and Poverty in Godavari River Basin," Ecology, Economy and Society - the INSEE Journal, Indian Society of Ecological Economics (INSEE), vol. 2(02), July.
    22. Otoo, Miriam & Lefore, Nicole & Schmitter, Petra & Barron, Jennie & Gebregziabher, Gebrehaweria, 2018. "Business model scenarios and suitability: smallholder solar pump-based irrigation in Ethiopia. Agricultural Water Management – Making a Business Case for Smallholders," IWMI Reports 273354, International Water Management Institute.

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